A ball is thrown vertically upward with a velocity of 49 m/s. Calculate the 1. Maximum height to which it reaches 2. The total time it takes to returns to the surface of earth
Answers
Initial velocity (u) = 49 m/s Final velocity (v) = 0 m/s
Gravity in toward down = + 9.8 m/s2 Gravity in toward up = - 9.8 m/s2
(i) We know, V2 - u2 = 2gs
or, (o)2- (49)2 = 2 X 9.8 X S
or, s = - (49)2/ 2 X 9.8 = 122.5 m
Maximum height = 122.5 m
(ii) We know, v = u + gt
or 0 = 49 +(- 9.8) X t
or 9.8 X t = 49
or, t = 49/ 9.8 = 5 s
If, time for upward direction = time for downward direction
Then, total time taken by a ball to return back = 5 + 5 = 10 s
_/\_Hello mate__here is your answer--
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v = 0 m/s and
u = 49 m/s
During upward motion, g = − 9.8 m s^−2
Let h be the maximum height attained by the ball.
using
v^2 − u^2 = 2h
⇒ 0^2 − 49^2 = 2(−9.8)ℎ
⇒ ℎ =49×49/ 2×9.8 = 122.5
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Let t be the time taken by the ball to reach the height 122.5 m, then according to the equation of motion
v= u + gt
=>0 = 49 + (−9.8) t
⇒t 9.8 = 49
⇒ t= 49/9.8 = 5 s
But, Time of ascent = Time of descent
Therefore, total time taken by the ball to return
= 5 + 5 = 10
I hope, this will help you.☺
Thank you______❤
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